Smash: Flexible, Fast, and Resource-efficient Placement and Lookup of Distributed Storage

Proceedings of the ACM on Measurement and Analysis of Computing Systems Pub Date : 2023-05-19 DOI:10.1145/3589977

Yi Liu, Shouqian Shi, Minghao Xie, Heiner Litz, Chen Qian

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引用次数: 1

Abstract

Large-scale distributed storage systems, such as object stores, usually apply hashing-based placement and lookup methods to achieve scalability and resource efficiency. However, when object locations are determined by hash values, placement becomes inflexible, failing to optimize or satisfy application requirements such as load balance, failure tolerance, parallelism, and network/system performance. This work presents a novel solution to achieve the best of two worlds: flexibility while maintaining cost-effectiveness and scalability. The proposed method Smash is an object placement and lookup method that achieves full placement flexibility, balanced load, low resource cost, and short latency. Smash utilizes a recent space-efficient data structure and applies it to object-location lookups. We implement Smash as a prototype system and evaluate it in a public cloud. The analysis and experimental results show that Smash achieves full placement flexibility, fast storage operations, fast recovery from node dynamics, and lower DRAM cost (<60%) compared to existing hash-based solutions such as Ceph and MapX.

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Smash:灵活、快速、资源高效的分布式存储放置和查找

大型分布式存储系统(如对象存储)通常应用基于散列的放置和查找方法来实现可伸缩性和资源效率。但是，当对象位置由哈希值决定时，位置就变得不灵活，无法优化或满足应用程序需求，例如负载平衡、容错、并行性和网络/系统性能。这项工作提供了一种新颖的解决方案，以实现两个世界的最佳效果:灵活性，同时保持成本效益和可伸缩性。提出的Smash方法是一种对象放置和查找方法，实现了完全的放置灵活性、负载均衡、资源成本低、延迟短。Smash利用最新的空间高效数据结构，并将其应用于对象位置查找。我们将Smash作为原型系统实现，并在公共云中对其进行评估。分析和实验结果表明，与现有的基于hash的解决方案(如Ceph和MapX)相比，Smash实现了完全的放置灵活性、快速的存储操作、从节点动态中快速恢复以及更低的DRAM成本(<60%)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the ACM on Measurement and Analysis of Computing Systems

CiteScore

3.20

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0.00%

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